Abstract: A humidification system can include a heater base, a humidification chamber, and a breathing circuit. A cartridge can be removably coupled to the heater base. The cartridge can include various sensors, probes, sensor wire connectors, heater wire connectors, and/or other features. The cartridge can include features configured to mate with corresponding features on the humidification chamber and the heater base. The cartridge includes a memory, such as an EEPROM, or other suitable storage device. When the cartridge is installed on the heater base, the memory is electrically connected to a processor and/or memory of the heater base. Various models of cartridges can be produced for use with different humidification chambers, breathing circuits, and/or therapies. A connector can be configured to couple an inspiratory conduit to an outlet port of the humidification chamber. The connector can provide a pneumatic connection to the outlet port and an electrical connection to the cartridge.

Abstract: Techniques for accurate positioning of an energy application device for neuromodulation treatment protocols are provided. A neuromodulation positioning patch is applied to a patient's skin. The energy application device is coupled to a frame of the neuromodulation positioning patch to position a transducer of the energy application device within an opening at a treatment position within the opening. The frame is also coupled to a removable dock for an imaging probe. When the frame is coupled to the removable dock the frame of the neuromodulation positioning patch, acquires image data through the opening to identify or verify the treatment position.

Abstract: Methods and systems for providing a dynamic product presentation are disclosed. In one example, a method comprises providing, by a processor, a three-dimensional representation of a product in a virtual environment for display on a customer device; and responsive to the processor identifying a surface in a camera feed of the customer device having a dimensionality suitable for the product, generating, by the processor, an augmented media containing an augmented reality representation of a three-dimensional model for the product on the surface.

Abstract: A fiber optic sensing (FOS) system and method. The system may include one or more interrogator units and a proximal wavelength division multiplexer (WDM) and a distal WDM optically connectable to the one or more interrogator units, an upgoing transmission fiber, a down-going transmission fiber, and one or more downhole sensing fibers. The method may include transmitting one or more light pulses from an interrogator unit, multiplexing the one or more light pulses from the interrogator unit with a proximal WDM into an upgoing transmission fiber and a down-going transmission fiber, and receiving the one or more light pulses with a distal WDM. The method may further include multiplexing the one or more light pulses from the upgoing transmission fiber and the down-going transmission fiber into one or more downhole sensing fibers and receiving backscatter light from at least one of the one or more downhole sensing fibers.

Abstract: Irrigation needs assessment systems and methods may determine irrigation needs of one or more participants. The irrigation needs assessment system may determine irrigation needs based on weather conditions, forecast weather conditions, plant water uptake, and ground moisture content information. Evaporation rate information may be provided from one or more other participants of the irrigation needs assessment service.

Abstract: A product conveying and coating system includes multiple, sequentially arranged conveyor units, with at least one conveyor unit being an open belt type. A carrier sheet is placed on a first of the conveyor units, a web of coating material in liquid form is deposited on the carrier sheet and spaced ropes of soft and sticky material are deposited on and settle into the web. The carrier sheet, web and ropes are transferred to a second conveyor unit after the coating material of the web solidifies, whereupon the ropes are cut into bar-length pieces. Thereafter, the carrier sheet is removed while the web and pieces are transferred to the open belt conveyor unit and exposed to an enrober. The enrober coats the pieces while melting portions of the web between the pieces in order to form full coated or encapsulated food products with soft and sticky cores.

Abstract: Methods and systems for providing a dynamic product presentation are disclosed. In one example, a method comprises identifying, by a processor, a first surface in a first view of a camera feed from a customer device; obtaining, by the processor, a three-dimensional model of a product that corresponds to the first surface; providing, by the processor, an augmented media containing an overlay of a first augmented reality representation of the three-dimensional model of the product in the first view; and responsive to the processor identifying a second surface in a second view of the camera feed from the customer device, revising, by the processor, the augmented media to contain a second augmented reality representation of the three-dimensional model of the product on the second surface in the second view.

Abstract: Methods and systems using unqiue item identifiers and a wireless device to (a) authenticate authorization to take possession of an item and (b) specifying and/or tracking service processing of the item.

Abstract: Systems and methods for adjusting insurance premiums are provided. Embodiments provide systems and methods for providing a time-based adjustment to insurance premiums, as well as premium adjustment, and risk management. Some embodiments use collected data, such as telematics to take in data and determine, on a periodic basis, when a vehicle is actually moving and when it is not. In some embodiments, an insurance policy can be adjusted in real-time based on driving behaviors or restrictions.

Abstract: The present discussion relates to structures and devices to facilitate application of an ultrasound therapy beam to a target anatomic region in a replicable manner. In certain aspects, adjustable positioning structures are described that allow a general probe positioning structure to be configured for a specific patient in a manner that allows the device to be used repeatedly to target the anatomic region, even when in non-clinical settings. In other aspects, a probe positioning structure is fabricated that is specific to a respective patient anatomy, such that use of the probe positioning structure provides repeatable targeting of the target anatomic region, even when in non-clinical settings.

Abstract: Systems and methods for adjusting insurance premiums are provided. Embodiments provide systems and methods for providing a time-based adjustment to insurance premiums, as well as premium adjustment, and risk management. Some embodiments use collected data, such as telematics to take in data and determine, on a periodic basis, when a vehicle is actually moving and when it is not. In some embodiments, an insurance policy can be adjusted in real-time based on driving behaviors or restrictions.

Abstract: Integrated circuits can include compound semiconductor devices having conductive components that control electrical characteristics of the compound semiconductor devices. In one or more examples, one or more conductive components can be located to increase the concentration of electrons in relation to a source electrical contact or a drain electrical contact. In one or more additional examples, a conductive component can be located to reduce the concentration of electrons in relation to a gate electrical contact. The compound semiconductor devices can include a number of compound semiconductor layers that include one or more materials having at least one Group 13 element and at least one Group 15 element.

Abstract: A method of inverting workpieces in a mass production process includes: advancing an end effector in electronic synchronization with advancement of a carrier to synchronize arrival of the carrier at a stop position with arrival of the end effector at an unloading position, in which the end effector is in alignment with a workpiece held by the carrier for engaging the workpiece; while the end effector is in engagement with the workpiece, retracting the end effector away from the carrier to unload the workpiece from the carrier and advancing the end effector back toward the carrier to load the workpiece back into the carrier; and rotating the end effector relative to the carrier to invert the workpiece in electronic synchronization with the retracting and advancing of the end effector for loading the workpiece back into the carrier when inverted.

Abstract: A pump for a microfluidic device is disclosed. The pump comprises an actuator and a resilient isolator which is a planar, layered structure. The resilient isolator may comprise a support layer and optionally other layers for strengthening against tensile stress imposed by bending. Alternatively or in addition, the resilient isolator may comprise a plurality of annular regions, layers of the resilient isolator being configured such that at least one of the plurality of annular regions is less resistant than another one of the plurality of annular regions to bending. The actuator may comprise a piezoelectric disc including a surface which comprises electrode regions for electrical connection with respective conductive regions of a conductive layer of the resilient isolator, and an alignment feature for rotational alignment of the piezoelectric disc to ensure the electrical connection between the electrode regions and the respective conductive regions.

Abstract: A docking station for a mobile cleaning robot can include a canister and a base configured to receive the mobile cleaning robot thereon, where the base can include a front portion and a back portion opposite the front portion. The base can include a vacuum port extending at least partially through the base. The canister can be connected to the back portion of the base and can be located at least partially above the base. The canister can include a debris bin connected to the vacuum port to receive debris therefrom and a fan compartment connected to a side wall of the debris bin and including a fan system operable to draw debris through the vacuum port and the debris bin.

Abstract: A ball dropping tool includes an outer and inner body, side bore, ball and an actuator. The outer body has an axial bore extending between a first and second end of the outer body and forming a flow path. The inner body forms a bypass passage extending between a first and second end of the inner body. The side bore is defined by the inner body and is disposed at an angle relative to the axial bore of the outer body. The bypass passage is disposed in a portion of the flow path and is in communication with the side bore. The ball is disposed within the side bore. The actuator, disposed within the outer body, is movable between a retaining position wherein the ball is retained within the side bore and a release position wherein the ball is released from the side bore and into the bypass passage.

Abstract: A folding trailing arm landing gear assembly having a main fitting configured to couple to a hinge positioned at a proximal end; a swing arm rotatably coupled at a proximal end to a distal end of the main fitting; a shock coupled at a distal end to a distal end of the swing arm; a bellcrank coupled at a distal end to a proximal end of the shock, and coupled at a proximal end to the main fitting; and a wheel coupled to the swing arm.

Abstract: Determining classification(s) for object(s) in an environment of autonomous vehicle, and controlling the vehicle based on the determined classification(s). For example, autonomous steering, acceleration, and/or deceleration of the vehicle can be controlled based on determined pose(s) and/or classification(s) for objects in the environment. The control can be based on the pose(s) and/or classification(s) directly, and/or based on movement parameter(s), for the object(s), determined based on the pose(s) and/or classification(s). In many implementations, pose(s) and/or classification(s) of environmental object(s) are determined based on data from a phase coherent Light Detection and Ranging (LIDAR) component of the vehicle, such as a phase coherent LIDAR monopulse component and/or a frequency-modulated continuous wave (FMCW) LIDAR component.